Evolutionary genomic basis of mimicry diversity of Epicopeiidae moths
Hao Li, Yuan Zhang, Xiao Tian, Xiao Xu, Min Wang, Houshuai Wang, Dan Liang, Peng Zhang

TL;DR
This study explores how Epicopeiidae moths evolved diverse mimicry traits by analyzing their genomes and regulatory elements.
Contribution
The paper reveals that transposable elements and regulatory changes, not structural variations, drive morphological innovation in Epicopeiidae moths.
Findings
Genomic structural variations and gene family expansions had minimal impact on morphological evolution.
Transposable element activity coincided with morphological diversification and influenced regulatory regions near morphogenetic genes.
TE-derived accessible chromatin regions were enriched near genes involved in development, suggesting regulatory rewiring.
Abstract
Mimicry is a manifestation of natural selection that provides a key system for exploring the evolution of complex adaptive traits. Epicopeiidae moths are strikingly diverse morphologically, having evolved resemblance to multiple butterfly and moth models despite their recent origin. To uncover the genomic basis of this rapid morphological diversification, we sequenced high-quality genomes for eight Epicopeiidae species (three at the chromosome level) and conducted comparative genomics, developmental transcriptomics, and chromatin accessibility analyses. We found that genomic structural variations and gene family expansions contributed little to morphological evolution, whereas genes under positive selection in the ancestral Epicopeiidae were enriched for neural and visual functions, likely linked to the shift from nocturnal to diurnal activity of the Epecopeiidae ancestor. In contrast,…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsDevelopmental Biology and Gene Regulation · Lepidoptera: Biology and Taxonomy · Animal Behavior and Reproduction
